Determination of Halide Traces in Environmental Samples by Mass Spectrometric Isotope Dilution Analysis |
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| Authors: | K. G. Heumann R. Kifmann W. Schindlmeier M. Unger |
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| Affiliation: | 1. U.S. Geological Survey, Methods Research and Development Program, National Water Quality Laboratory , MS 407, Box 25046, Denver, Colorado, 80225–0046, USA;2. Chemistry Department , George Mason University , 4400 University Drive, Fairfax, Virginia, 22030, USA;3. U.S. Geological Survey , 10615 Southeast Cherry Blossom Drive Portland, Oregon, 97216, USA |
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| Abstract: | ![]()
Abstract Since 1985, the Goulden large-sample extractor (GLSE) has been used to isolate a broad array of trace-organic contaminants from large volumes of water. In this study, field-applied quality control measures, including matrix and surrogate spikes and blanks, were used to monitor method performance from GLSE extraction through GC-MS analysis. The method was applied to the determination of multiple classes of pesticides isolated from 4- to 112-L filtered surface-water samples. Average recoveries of six surrogate compounds ranged from 84 ± 18% for [2H10]diazinon to 15 ± 13% for 4,4′-[2H8]DDT, the low recoveries for which were largely a result of unmonitored breakdown of this surrogate by the GC injection system. Field-matrix-spike samples were prepared by fortifying 10-L, 35-L, and 110-L filtered surface-water samples with 68 pesticides to amended concentrations of 11-to 50-ng/L each. Recoveries ranged from not detected to greater than 100%. Variability in pesticide recoveries from triplicate 10-L water samples collected at one site averaged 5.7% relative standard deviation and did not exceed 19%. |
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| Keywords: | Chloride bromide mass spectrometry isotope dilution snow aerosol |
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